/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *   http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 * 
 */

package org.apache.jmeter.save;

import java.io.BufferedReader;
import java.io.ByteArrayOutputStream;
import java.io.FileReader;
import java.io.FileWriter;
import java.io.IOException;
import java.text.DateFormat;
import java.text.ParseException;
import java.text.SimpleDateFormat;
import java.util.ArrayList;
import java.util.Date;
import java.util.List;
import java.util.Vector;

import javax.swing.table.DefaultTableModel;

import org.apache.commons.collections.map.LinkedMap;
import org.apache.commons.lang.CharUtils;
import org.apache.commons.lang.StringUtils;
import org.apache.jmeter.assertions.AssertionResult;
import org.apache.jmeter.reporters.ResultCollector;
import org.apache.jmeter.samplers.SampleEvent;
import org.apache.jmeter.samplers.SampleResult;
import org.apache.jmeter.samplers.SampleSaveConfiguration;
import org.apache.jmeter.samplers.StatisticalSampleResult;
import org.apache.jmeter.util.JMeterUtils;
import org.apache.jmeter.visualizers.Visualizer;
import org.apache.jorphan.logging.LoggingManager;
import org.apache.jorphan.reflect.Functor;
import org.apache.jorphan.util.JMeterError;
import org.apache.jorphan.util.JOrphanUtils;
import org.apache.log.Logger;
import org.apache.oro.text.regex.Pattern;
import org.apache.oro.text.regex.PatternMatcherInput;
import org.apache.oro.text.regex.Perl5Compiler;
import org.apache.oro.text.regex.Perl5Matcher;

/**
 * This class provides a means for saving/reading test results as CSV files.
 */
public final class CSVSaveService {
	private static final Logger log = LoggingManager.getLoggerForClass();

    // ---------------------------------------------------------------------
    // XML RESULT FILE CONSTANTS AND FIELD NAME CONSTANTS
    // ---------------------------------------------------------------------

    private static final String DATA_TYPE = "dataType"; // $NON-NLS-1$
    private static final String FAILURE_MESSAGE = "failureMessage"; // $NON-NLS-1$
    private static final String LABEL = "label"; // $NON-NLS-1$
    private static final String RESPONSE_CODE = "responseCode"; // $NON-NLS-1$
    private static final String RESPONSE_MESSAGE = "responseMessage"; // $NON-NLS-1$
    private static final String SUCCESSFUL = "success"; // $NON-NLS-1$
    private static final String THREAD_NAME = "threadName"; // $NON-NLS-1$
    private static final String TIME_STAMP = "timeStamp"; // $NON-NLS-1$

    // ---------------------------------------------------------------------
    // ADDITIONAL CSV RESULT FILE CONSTANTS AND FIELD NAME CONSTANTS
    // ---------------------------------------------------------------------

    private static final String CSV_ELAPSED = "elapsed"; // $NON-NLS-1$
    private static final String CSV_BYTES= "bytes"; // $NON-NLS-1$
    private static final String CSV_THREAD_COUNT1 = "grpThreads"; // $NON-NLS-1$
    private static final String CSV_THREAD_COUNT2 = "allThreads"; // $NON-NLS-1$
    private static final String CSV_SAMPLE_COUNT = "SampleCount"; // $NON-NLS-1$
    private static final String CSV_ERROR_COUNT = "ErrorCount"; // $NON-NLS-1$
    private static final String CSV_URL = "URL"; // $NON-NLS-1$
    private static final String CSV_FILENAME = "Filename"; // $NON-NLS-1$
    private static final String CSV_LATENCY = "Latency"; // $NON-NLS-1$
    private static final String CSV_ENCODING = "Encoding"; // $NON-NLS-1$
    private static final String CSV_HOSTNAME = "Hostname"; // $NON-NLS-1$

    // Used to enclose variable name labels, to distinguish from any of the above labels
	private static final String VARIABLE_NAME_QUOTE_CHAR = "\"";  // $NON-NLS-1$

    // Initial config from properties
	static private final SampleSaveConfiguration _saveConfig = SampleSaveConfiguration.staticConfig();

	// Date format to try if the time format does not parse as milliseconds
	// (this is the suggested value in jmeter.properties)
	private static final String DEFAULT_DATE_FORMAT_STRING = "MM/dd/yy HH:mm:ss"; // $NON-NLS-1$
	private static final DateFormat DEFAULT_DATE_FORMAT = new SimpleDateFormat(DEFAULT_DATE_FORMAT_STRING);

	/**
	 * Private constructor to prevent instantiation.
	 */
	private CSVSaveService() {
	}

	/**
	 * Read Samples from a file; handles quoted strings.
	 * 
	 * @param filename input file
	 * @param visualizer where to send the results
	 * @param resultCollector the parent collector
	 * @throws IOException
	 */
	public static void processSamples(String filename, Visualizer visualizer,
			ResultCollector resultCollector) throws IOException {
    	BufferedReader dataReader = null;
		try {
			dataReader = new BufferedReader(new FileReader(filename));
			dataReader.mark(400);// Enough to read the header column names
			// Get the first line, and see if it is the header
			String line = dataReader.readLine();
			long lineNumber=1;
			SampleSaveConfiguration saveConfig = CSVSaveService.getSampleSaveConfiguration(line,filename);
			if (saveConfig == null) {// not a valid header
				log.info(filename+" does not appear to have a valid header. Using default configuration.");
				saveConfig = (SampleSaveConfiguration) resultCollector.getSaveConfig().clone(); // may change the format later
				dataReader.reset(); // restart from beginning
				lineNumber = 0;
			}
			String [] parts;
			while ((parts = csvReadFile(dataReader, saveConfig.getDelimiter().charAt(0))).length != 0) {
				lineNumber++;
				SampleEvent event = CSVSaveService.makeResultFromDelimitedString(parts,saveConfig,lineNumber);
				if (event != null){
					final SampleResult result = event.getResult();
					if (resultCollector.isSampleWanted(result.isSuccessful())) {
						visualizer.add(result);
					}
				}
			}
		} finally {
			JOrphanUtils.closeQuietly(dataReader);
		}
	}

	/**
     * Make a SampleResult given a delimited string.
     * 
     * @param inputLine - line from CSV file
     * @param saveConfig - configuration
     * @param lineNumber - line number for error reporting
     * @return SampleResult
     * 
     * @deprecated Does not handle quoted strings; use {@link #processSamples(String, Visualizer, ResultCollector)} instead
     * 
     * @throws JMeterError
     */
    public static SampleEvent makeResultFromDelimitedString(
    		final String inputLine, 
    		final SampleSaveConfiguration saveConfig, // may be updated
    		final long lineNumber) {
		/*
		 * Bug 40772: replaced StringTokenizer with String.split(), as the
		 * former does not return empty tokens.
		 */
		// The \Q prefix is needed to ensure that meta-characters (e.g. ".") work.
		String parts[]=inputLine.split("\\Q"+saveConfig.getDelimiter());// $NON-NLS-1$
    	return makeResultFromDelimitedString(parts, saveConfig, lineNumber);
    }
    
    /**
     * Make a SampleResult given a set of tokens
     * @param parts tokens parsed from the input
     * @param saveConfig the save configuration (may be updated)
     * @param lineNumber
     * @return the sample result
     * 
     * @throws JMeterError
     */
    private static SampleEvent makeResultFromDelimitedString(
    		final String[] parts, 
    		final SampleSaveConfiguration saveConfig, // may be updated
    		final long lineNumber) {
    
    	SampleResult result = null;
        String hostname = "";// $NON-NLS-1$
		long timeStamp = 0;
		long elapsed = 0;
		String text = null;
		String field = null; // Save the name for error reporting
		int i=0;

		try {
			if (saveConfig.saveTimestamp()){
				field = TIME_STAMP;
				text = parts[i++];
				if (saveConfig.printMilliseconds()) {
					try {
						timeStamp = Long.parseLong(text);
					} catch (NumberFormatException e) {// see if this works
						log.warn(e.toString());
						Date stamp = DEFAULT_DATE_FORMAT.parse(text);
						timeStamp = stamp.getTime();
						log.warn("Setting date format to: "+DEFAULT_DATE_FORMAT_STRING);
						saveConfig.setFormatter(DEFAULT_DATE_FORMAT);
					}
				} else if (saveConfig.formatter() != null) {
					Date stamp = saveConfig.formatter().parse(text);
					timeStamp = stamp.getTime();
				} else { // can this happen?
					final String msg = "Unknown timestamp format";
					log.warn(msg);
					throw new JMeterError(msg);
				}
			}

			if (saveConfig.saveTime()) {
				field = CSV_ELAPSED;
				text = parts[i++];
				elapsed = Long.parseLong(text);
			}

			if (saveConfig.saveSampleCount()) {
				result = new StatisticalSampleResult(timeStamp, elapsed);
			} else {
				result = new SampleResult(timeStamp, elapsed);
			}

			if (saveConfig.saveLabel()) {
				field = LABEL;
				text = parts[i++];
				result.setSampleLabel(text);
			}
			if (saveConfig.saveCode()) {
				field = RESPONSE_CODE;
				text = parts[i++];
				result.setResponseCode(text);
			}

			if (saveConfig.saveMessage()) {
				field = RESPONSE_MESSAGE;
				text = parts[i++];
				result.setResponseMessage(text);
			}

			if (saveConfig.saveThreadName()) {
				field = THREAD_NAME;
				text = parts[i++];
				result.setThreadName(text);
			}

			if (saveConfig.saveDataType()) {
				field = DATA_TYPE;
				text = parts[i++];
				result.setDataType(text);
			}

			if (saveConfig.saveSuccess()) {
				field = SUCCESSFUL;
				text = parts[i++];
				result.setSuccessful(Boolean.valueOf(text).booleanValue());
			}

			if (saveConfig.saveAssertionResultsFailureMessage()) {
				i++;
                // TODO - should this be restored?
			}
            
            if (saveConfig.saveBytes()) {
            	field = CSV_BYTES;
                text = parts[i++];
                result.setBytes(Integer.parseInt(text));
            }
        
            if (saveConfig.saveThreadCounts()) {
            	field = CSV_THREAD_COUNT1;
                text = parts[i++];
                result.setGroupThreads(Integer.parseInt(text));
                
            	field = CSV_THREAD_COUNT2;
                text = parts[i++];
                result.setAllThreads(Integer.parseInt(text));
            }

            if (saveConfig.saveUrl()) {
                i++;
                // TODO: should this be restored?
            }
        
            if (saveConfig.saveFileName()) {
            	field = CSV_FILENAME;
                text = parts[i++];
                result.setResultFileName(text);
            }            
            if (saveConfig.saveLatency()) {
            	field = CSV_LATENCY;
                text = parts[i++];
                result.setLatency(Long.parseLong(text));
            }

            if (saveConfig.saveEncoding()) {
            	field = CSV_ENCODING;
                text = parts[i++];
                result.setEncodingAndType(text);
            }

            if (saveConfig.saveSampleCount()) {
            	field = CSV_SAMPLE_COUNT;
                text = parts[i++];
                result.setSampleCount(Integer.parseInt(text));
            	field = CSV_ERROR_COUNT;
                text = parts[i++];
                result.setErrorCount(Integer.parseInt(text));
            }

            if (saveConfig.saveHostname()) {
            	field = CSV_HOSTNAME;
                hostname = parts[i++];
            }
            
            if (i + saveConfig.getVarCount() < parts.length){
            	log.warn("Line: "+lineNumber+". Found "+parts.length+" fields, expected "+i+". Extra fields have been ignored.");
            }

		} catch (NumberFormatException e) {
			log.warn("Error parsing field '" + field + "' at line " + lineNumber + " " + e);
			throw new JMeterError(e);
		} catch (ParseException e) {
			log.warn("Error parsing field '" + field + "' at line " + lineNumber + " " + e);
			throw new JMeterError(e);
		} catch (ArrayIndexOutOfBoundsException e){
			log.warn("Insufficient columns to parse field '" + field + "' at line " + lineNumber);
			throw new JMeterError(e);
		}
		return new SampleEvent(result,"",hostname);
	}

    /**
     * Generates the field names for the output file
     * 
     * @return the field names as a string
     */
    public static String printableFieldNamesToString() {
        return printableFieldNamesToString(_saveConfig);
    }
    
	/**
	 * Generates the field names for the output file
	 * 
	 * @return the field names as a string
	 */
	public static String printableFieldNamesToString(SampleSaveConfiguration saveConfig) {
		StringBuffer text = new StringBuffer();
		String delim = saveConfig.getDelimiter();

		if (saveConfig.saveTimestamp()) {
			text.append(TIME_STAMP);
			text.append(delim);
		}

		if (saveConfig.saveTime()) {
			text.append(CSV_ELAPSED);
			text.append(delim);
		}

		if (saveConfig.saveLabel()) {
			text.append(LABEL);
			text.append(delim);
		}

		if (saveConfig.saveCode()) {
			text.append(RESPONSE_CODE);
			text.append(delim);
		}

		if (saveConfig.saveMessage()) {
			text.append(RESPONSE_MESSAGE);
			text.append(delim);
		}

		if (saveConfig.saveThreadName()) {
			text.append(THREAD_NAME);
			text.append(delim);
		}

		if (saveConfig.saveDataType()) {
			text.append(DATA_TYPE);
			text.append(delim);
		}

		if (saveConfig.saveSuccess()) {
			text.append(SUCCESSFUL);
			text.append(delim);
		}

		if (saveConfig.saveAssertionResultsFailureMessage()) {
			text.append(FAILURE_MESSAGE);
			text.append(delim);
		}

        if (saveConfig.saveBytes()) {
            text.append(CSV_BYTES);
            text.append(delim);
        }

        if (saveConfig.saveThreadCounts()) {
            text.append(CSV_THREAD_COUNT1);
            text.append(delim);
            text.append(CSV_THREAD_COUNT2);
            text.append(delim);
        }

        if (saveConfig.saveUrl()) {
            text.append(CSV_URL);
            text.append(delim);
        }

        if (saveConfig.saveFileName()) {
            text.append(CSV_FILENAME);
            text.append(delim);
        }

        if (saveConfig.saveLatency()) {
            text.append(CSV_LATENCY);
            text.append(delim);
        }

        if (saveConfig.saveEncoding()) {
            text.append(CSV_ENCODING);
            text.append(delim);
        }

		if (saveConfig.saveSampleCount()) {
			text.append(CSV_SAMPLE_COUNT);
			text.append(delim);
			text.append(CSV_ERROR_COUNT);
			text.append(delim);
		}

        if (saveConfig.saveHostname()) {
            text.append(CSV_HOSTNAME);
            text.append(delim);
        }

        for (int i = 0; i < SampleEvent.getVarCount(); i++){
        	text.append(VARIABLE_NAME_QUOTE_CHAR);
        	text.append(SampleEvent.getVarName(i));
        	text.append(VARIABLE_NAME_QUOTE_CHAR);
            text.append(delim);
        }

        String resultString = null;
		int size = text.length();
		int delSize = delim.length();

		// Strip off the trailing delimiter
		if (size >= delSize) {
			resultString = text.substring(0, size - delSize);
		} else {
			resultString = text.toString();
		}
		return resultString;
	}
	
	// Map header names to set() methods
	private static final LinkedMap headerLabelMethods = new LinkedMap();
	
	// These entries must be in the same order as columns are saved/restored.
	
	static {
		    headerLabelMethods.put(TIME_STAMP, new Functor("setTimestamp"));
			headerLabelMethods.put(CSV_ELAPSED, new Functor("setTime"));
			headerLabelMethods.put(LABEL, new Functor("setLabel"));
			headerLabelMethods.put(RESPONSE_CODE, new Functor("setCode"));
			headerLabelMethods.put(RESPONSE_MESSAGE, new Functor("setMessage"));
			headerLabelMethods.put(THREAD_NAME, new Functor("setThreadName"));
			headerLabelMethods.put(DATA_TYPE, new Functor("setDataType"));
			headerLabelMethods.put(SUCCESSFUL, new Functor("setSuccess"));
			headerLabelMethods.put(FAILURE_MESSAGE, new Functor("setAssertionResultsFailureMessage"));
            headerLabelMethods.put(CSV_BYTES, new Functor("setBytes"));
            // Both these are needed in the list even though they set the same variable
            headerLabelMethods.put(CSV_THREAD_COUNT1,new Functor("setThreadCounts"));
            headerLabelMethods.put(CSV_THREAD_COUNT2,new Functor("setThreadCounts"));
            headerLabelMethods.put(CSV_URL, new Functor("setUrl"));
            headerLabelMethods.put(CSV_FILENAME, new Functor("setFileName"));
            headerLabelMethods.put(CSV_LATENCY, new Functor("setLatency"));
            headerLabelMethods.put(CSV_ENCODING, new Functor("setEncoding"));
            // Both these are needed in the list even though they set the same variable
            headerLabelMethods.put(CSV_SAMPLE_COUNT, new Functor("setSampleCount"));
            headerLabelMethods.put(CSV_ERROR_COUNT, new Functor("setSampleCount"));
            headerLabelMethods.put(CSV_HOSTNAME, new Functor("setHostname"));
	}

	/**
	 * Parse a CSV header line
	 * @param headerLine from CSV file
	 * @param filename name of file (for log message only)
	 * @return config corresponding to the header items found or null if not a header line
	 */
	public static SampleSaveConfiguration getSampleSaveConfiguration(String headerLine, String filename){
		String[] parts = splitHeader(headerLine,_saveConfig.getDelimiter()); // Try default delimiter

		String delim = null;
		
		if (parts == null){
			Perl5Matcher matcher = JMeterUtils.getMatcher();
			PatternMatcherInput input = new PatternMatcherInput(headerLine);
			Pattern pattern = JMeterUtils.getPatternCache()
			// This assumes the header names are all single words with no spaces
			// word followed by 0 or more repeats of (non-word char + word)
			// where the non-word char (\2) is the same
			// e.g.  abc|def|ghi but not abd|def~ghi
			        .getPattern("\\w+((\\W)\\w+)?(\\2\\w+)*(\\2\"\\w+\")*", // $NON-NLS-1$
			        		// last entries may be quoted strings
					Perl5Compiler.READ_ONLY_MASK);
			if (matcher.matches(input, pattern)) {
				delim = matcher.getMatch().group(2);
				parts = splitHeader(headerLine,delim);// now validate the result
			}
		}
		
		if (parts == null) {
			return null; // failed to recognise the header
		}
		
		// We know the column names all exist, so create the config 
		SampleSaveConfiguration saveConfig=new SampleSaveConfiguration(false);
		
		int varCount = 0;
		for(int i=0;i<parts.length;i++){
			String label = parts[i];
			if (isVariableName(label)){
				varCount++;
			} else {
				Functor set = (Functor) headerLabelMethods.get(label);
				set.invoke(saveConfig,new Boolean[]{Boolean.TRUE});
			}
		}

		if (delim != null){
			log.warn("Default delimiter '"+_saveConfig.getDelimiter()+"' did not work; using alternate '"+delim+"' for reading "+filename);
			saveConfig.setDelimiter(delim);
		}
		
		saveConfig.setVarCount(varCount);
		
		return saveConfig;
	}

	private static String[] splitHeader(String headerLine, String delim) {
		String parts[]=headerLine.split("\\Q"+delim);// $NON-NLS-1$
		int previous = -1;
		// Check if the line is a header
		for(int i=0;i<parts.length;i++){
			final String label = parts[i];
			// Check for Quoted variable names
			if (isVariableName(label)){
				previous=Integer.MAX_VALUE; // they are always last
				continue;
			}
			int current = headerLabelMethods.indexOf(label);
			if (current == -1){
				return null; // unknown column name
			}
			if (current <= previous){
				log.warn("Column header number "+(i+1)+" name "+ label + " is out of order.");
				return null; // out of order
			}
			previous = current;
		}
		return parts;
	}

	/**
	 * Check if the label is a variable name, i.e. is it enclosed in double-quotes?
	 * 
	 * @param label column name from CSV file
	 * @return if the label is enclosed in double-quotes
	 */
	private static boolean isVariableName(final String label) {
		return label.length() > 2
		    && label.startsWith(VARIABLE_NAME_QUOTE_CHAR)
		    && label.endsWith(VARIABLE_NAME_QUOTE_CHAR);
	}

	/**
     * Method will save aggregate statistics as CSV. For now I put it here.
     * Not sure if it should go in the newer SaveService instead of here.
     * if we ever decide to get rid of this class, we'll need to move this
     * method to the new save service.
     * @param data vector of data rows
     * @param writer output file
     * @throws IOException
     */
    public static void saveCSVStats(Vector data, FileWriter writer) throws IOException {
    	saveCSVStats(data, writer, null);
    }
	
	/**
     * Method will save aggregate statistics as CSV. For now I put it here.
     * Not sure if it should go in the newer SaveService instead of here.
     * if we ever decide to get rid of this class, we'll need to move this
     * method to the new save service.
     * @param data vector of data rows
     * @param writer output file
     * @param headers header names (if non-null)
     * @throws IOException
     */
    public static void saveCSVStats(Vector data, FileWriter writer, String headers[]) throws IOException {
    	final char DELIM = ',';
		final String LINE_SEP = System.getProperty("line.separator"); // $NON-NLS-1$
		final char SPECIALS[] = new char[] {DELIM, QUOTING_CHAR};
		if (headers != null){
        	for (int i=0; i < headers.length; i++){
        		if (i>0) {
        			writer.write(DELIM);
        		}
        		writer.write(quoteDelimiters(headers[i],SPECIALS));
        	}
        	writer.write(LINE_SEP);
    	}
        for (int idx=0; idx < data.size(); idx++) {
            Vector row = (Vector)data.elementAt(idx);
            for (int idy=0; idy < row.size(); idy++) {
                if (idy > 0) {
                    writer.write(DELIM);
                }
                Object item = row.elementAt(idy);
                writer.write( quoteDelimiters(String.valueOf(item),SPECIALS));
            }
            writer.write(LINE_SEP);
        }
    }

	/**
     * Method saves aggregate statistics as CSV from a table model.
     * Same as {@link #saveCSVStats(Vector, FileWriter, String[])} except
     * that there is no need to create a Vector containing the data.
     * 
     * @param model table model containing the data
     * @param writer output file
     * @throws IOException
     */
    public static void saveCSVStats(DefaultTableModel model, FileWriter writer) throws IOException {
    	final char DELIM = ',';
		final String LINE_SEP = System.getProperty("line.separator"); // $NON-NLS-1$
		final char SPECIALS[] = new char[] {DELIM, QUOTING_CHAR};
		final int columns = model.getColumnCount();
		final int rows = model.getRowCount();
    	for (int i=0; i < columns; i++){
    		if (i>0) {
    			writer.write(DELIM);
    		}
    		writer.write(quoteDelimiters(model.getColumnName(i),SPECIALS));
    	}
    	writer.write(LINE_SEP);
        for (int row=0; row < rows; row++) {
            for (int column=0; column < columns; column++) {
                if (column > 0) {
                    writer.write(DELIM);
                }
                Object item = model.getValueAt(row, column);
                writer.write( quoteDelimiters(String.valueOf(item),SPECIALS));
            }
            writer.write(LINE_SEP);
        }
    }

    /**
     * Convert a result into a string, where the fields of the result are
     * separated by the default delimiter.
     * 
     * @param event
     *            the sample event to be converted
     * @return the separated value representation of the result
     */
    public static String resultToDelimitedString(SampleEvent event) {
    	return resultToDelimitedString(event, event.getResult().getSaveConfig().getDelimiter());
    }

    /**
     * Convert a result into a string, where the fields of the result are
     * separated by a specified String.
     *
     * @param event
     *            the sample event to be converted
     * @param delimiter
     *            the separation string
     * @return the separated value representation of the result
     */
    public static String resultToDelimitedString(SampleEvent event, final String delimiter) {
    	
    	/*
    	 * Class to handle generating the delimited string.
    	 * - adds the delimiter if not the first call
    	 * - quotes any strings that require it 
    	 */
    	final class StringQuoter{
        	final StringBuffer sb = new StringBuffer();
    		private final char[] specials;
    		private boolean addDelim;
    		public StringQuoter(char delim) {
    			specials = new char[] {delim, QUOTING_CHAR, CharUtils.CR, CharUtils.LF};
    			addDelim=false; // Don't add delimiter first time round
			}
    		
    		private void addDelim(){
    			if (addDelim){
    				sb.append(specials[0]);
    			} else {
    				addDelim = true;
    			}
    		}
    		// These methods handle parameters that could contain delimiters or quotes:
    		public void append(String s){
    			addDelim();
    			//if (s == null) return;
    			sb.append(quoteDelimiters(s,specials));
    		}
    		public void append(Object obj){
    			append(String.valueOf(obj));
    		}
    		
    		// These methods handle parameters that cannot contain delimiters or quotes
    		public void append(int i){
    			addDelim();
    			sb.append(i);
    		}
    		public void append(long l){
    			addDelim();
    			sb.append(l);
    		}
    		public void append(boolean b){
    			addDelim();
    			sb.append(b);
    		}

    		public String toString(){
    			return sb.toString();
    		}
    	}
    	
    	StringQuoter text = new StringQuoter(delimiter.charAt(0));
    	
    	SampleResult sample = event.getResult();
    	SampleSaveConfiguration saveConfig = sample.getSaveConfig();
    
    	if (saveConfig.saveTimestamp()) {
    		if (saveConfig.printMilliseconds()){
    			text.append(sample.getTimeStamp());
    		} else if (saveConfig.formatter() != null) {
    			String stamp = saveConfig.formatter().format(new Date(sample.getTimeStamp()));
    			text.append(stamp);
    		}
    	}
    
    	if (saveConfig.saveTime()) {
    		text.append(sample.getTime());
    	}
    
    	if (saveConfig.saveLabel()) {
    		text.append(sample.getSampleLabel());
    	}
    
    	if (saveConfig.saveCode()) {
    		text.append(sample.getResponseCode());
    	}
    
    	if (saveConfig.saveMessage()) {
    		text.append(sample.getResponseMessage());
    	}
    
    	if (saveConfig.saveThreadName()) {
    		text.append(sample.getThreadName());
    	}
    
    	if (saveConfig.saveDataType()) {
    		text.append(sample.getDataType());
    	}
    
    	if (saveConfig.saveSuccess()) {
    		text.append(sample.isSuccessful());
    	}
    
    	if (saveConfig.saveAssertionResultsFailureMessage()) {
    		String message = null;
    		AssertionResult[] results = sample.getAssertionResults();
    
    		if (results != null) {
    			// Find the first non-null message
    			for (int i = 0; i < results.length; i++){
        			message = results[i].getFailureMessage();
    				if (message != null) {
    				    break;
    				}
    			}
    		}
    
    		if (message != null) {
    			text.append(message);
    		} else {
    			text.append(""); // Need to append something so delimiter is added
    		}
    	}
    
        if (saveConfig.saveBytes()) {
            text.append(sample.getBytes());
        }
    
        if (saveConfig.saveThreadCounts()) {
            text.append(sample.getGroupThreads());
            text.append(sample.getAllThreads());
        }
        if (saveConfig.saveUrl()) {
            text.append(sample.getURL());
        }
    
        if (saveConfig.saveFileName()) {
            text.append(sample.getResultFileName());
        }
    
        if (saveConfig.saveLatency()) {
            text.append(sample.getLatency());
        }

        if (saveConfig.saveEncoding()) {
            text.append(sample.getDataEncodingWithDefault());
        }

    	if (saveConfig.saveSampleCount()) {// Need both sample and error count to be any use
    		text.append(sample.getSampleCount());
    		text.append(sample.getErrorCount());
    	}
    
        if (saveConfig.saveHostname()) {
            text.append(event.getHostname());
        }

        for (int i=0; i < SampleEvent.getVarCount(); i++){
        	text.append(event.getVarValue(i));
        }

    	return text.toString();
    }

    // =================================== CSV quote/unquote handling ==============================
    
    /*
     * Private versions of what might eventually be part of Commons-CSV or Commons-Lang/Io...
     */
    
    /*
     * <p>
     * Returns a <code>String</code> value for a character-delimited column value
     * enclosed in the quote character, if required.
     * </p>
     *
     * <p>
     * If the value contains a special character,
     * then the String value is returned enclosed in the quote character.
     * </p>
     *
     * <p>
     * Any quote characters in the value are doubled up.
     * </p>
     *
     * <p>
     * If the value does not contain any special characters,
     * then the String value is returned unchanged.
     * </p>
     * 
     * <p>
     * N.B. The list of special characters includes the quote character.
     * </p>
     * 
     * @param input the input column String, may be null (without enclosing delimiters)
     * @param specialChars special characters; second one must be the quote character 
     * @return the input String, enclosed in quote characters if the value contains a special character,
     * <code>null</code> for null string input
     */
    private static String quoteDelimiters(String input, char[] specialChars) {
        if (StringUtils.containsNone(input, specialChars)) {
            return input;
        }
        StringBuffer buffer = new StringBuffer(input.length() + 10);
        final char quote = specialChars[1];
        buffer.append(quote);
        for (int i = 0; i < input.length(); i++) {
            char c = input.charAt(i);
            if (c == quote) {
                buffer.append(quote); // double the quote char
            }
            buffer.append(c);
        }
        buffer.append(quote);
        return buffer.toString();
    }

    // State of the parser
	private static final int INITIAL=0, PLAIN = 1, QUOTED = 2, EMBEDDEDQUOTE = 3;
	public static final char QUOTING_CHAR = '"';
    /**
     * Reads from file and splits input into strings according to the delimiter,
     * taking note of quoted strings.
     * 
     * Handles DOS (CRLF), Unix (LF), and Mac (CR) line-endings equally.
     * 
     * @param infile input file  - must support mark(1)
     * @param delim delimiter (e.g. comma)
     * @return array of strings
     * @throws IOException also for unexpected quote characters
     */
	public static String[] csvReadFile(BufferedReader infile, char delim) throws IOException {
		int ch;
		int state = INITIAL;
		List list = new ArrayList();
		ByteArrayOutputStream baos = new ByteArrayOutputStream(200);
		while(-1 != (ch=infile.read())){
			boolean push = false;
			switch(state){
			case INITIAL:
				if (ch == QUOTING_CHAR){
					state = QUOTED;
				} else if (isDelimOrEOL(delim, ch)) {
					push = true;
				} else {
					baos.write(ch);	
					state = PLAIN;
				}
				break;
			case PLAIN:
				if (ch == QUOTING_CHAR){
                    baos.write(ch); 
					throw new IOException("Cannot have quote-char in plain field:["+baos.toString()+"]");
				} else if (isDelimOrEOL(delim, ch)) {
					push = true;
					state = INITIAL;
				} else {
					baos.write(ch);
				}
				break;
			case QUOTED:
				if (ch == QUOTING_CHAR){
					state=EMBEDDEDQUOTE;
				} else {
					baos.write(ch);
				}
				break;
			case EMBEDDEDQUOTE:
				if (ch == QUOTING_CHAR){
					baos.write(QUOTING_CHAR); // doubled quote => quote
					state = QUOTED;
				} else if (isDelimOrEOL(delim, ch)) {
					push = true;
					state = INITIAL;
				} else {
                    baos.write(QUOTING_CHAR);
					throw new IOException("Cannot have single quote-char in quoted field:["+baos.toString()+"]");
				}
				break;
			}
			if (push) {
				if (ch == '\r') {// Remove following \n if present
					infile.mark(1);
					if (infile.read() != '\n'){
						infile.reset(); // did not find \n, put the character back
					}
				}
				String s = baos.toString();
				list.add(s);
				baos.reset();
			}
			if ((ch == '\n' || ch == '\r') && state != QUOTED) {
				break;
			}
		}
		if (ch == -1 && baos.size() > 0){
			list.add(baos.toString());
		}
		return (String[]) list.toArray(new String[]{});
	}

	private static boolean isDelimOrEOL(char delim, int ch) {
		return ch == delim || ch == '\n' || ch == '\r';
	}
}
